Laurent Gosse scite author profile

Abstract. Conservative linear equations arise in many areas of application, including continuum mechanics or high-frequency geometrical optics approximations. This kind of equation admits most of the time solutions which are only bounded measures in the space variable known as duality solutions. In this paper, we study the convergence of a class of finite-difference numerical schemes and introduce an appropriate concept of consistency with the continuous problem. Some basic examples including computational results are also supplied.

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Asymptotic-preserving & well-balanced schemes for radiative transfer and the Rosseland approximation

Gosse

Toscani

2004

Numer. Math.

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We are concerned with efficient numerical simulation of the radiative transfer equations. To this end, we follow the Well-Balanced approach's canvas and reformulate the relaxation term as a nonconservative product regularized by steady-state curves while keeping the velocity variable continuous. These steady-state equations are of Fredholm type. The resulting upwind schemes are proved to be stable under a reasonable parabolic CFL condition of the type t ≤ O( x 2 ) among other desirable properties. Some numerical results demonstrate the realizability and the efficiency of this process.

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Finite Moment Problems and Applications to Multiphase Computations in Geometric Optics

Gosse¹,

Runborg²

2005

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Error Estimates for Well-Balanced Schemes on Simple Balance Laws

Amadori

Gosse

2015

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Laurent Gosse

Computing Qualitatively Correct Approximations of Balance Laws

Numerical approximations of one-dimensional linear conservation equations with discontinuous coefficients

Asymptotic-preserving & well-balanced schemes for radiative transfer and the Rosseland approximation

Finite Moment Problems and Applications to Multiphase Computations in Geometric Optics

Error Estimates for Well-Balanced Schemes on Simple Balance Laws

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